Search results for "HIISI"
showing 5 items of 5 documents
ECR2:n suihkulinjan ja HIISIn tyhjiöpumppujen suojaus HIISIn hajamagneettikentältä
2017
Tässä työssä suunniteltiin HIISIn tyhjiöpumpuille ja ECR2:n injektiolinjalle magneettiset suojaukset HIISIn kelojen synnyttämältä magneettikentältä. HIISIn aiheuttaman magneettikentän suuruutta ja suuntaa tutkittiin simulaatioiden ja mittausten avulla suojattavissa paikoissa. Tyhjiöpumppujen valmistajat ovat ilmoittaneet kunkin pumpun kestämät maksimimagneettivuot radiaalisesti sekä aksiaalisesti. Tyhjiöpumpuille suunniteltiin ferromagneettiset suojat, jotka pienentävät HIISIn hajakenttää tyhjiöpumppujen kohdalla riittävästi, jotta pumput eivät ole vaarassa vaurioitua HIISIä käytettäessä. Suojiksi valittiin toisesta päästä suljetut putket, jotka koostuvat matalahiilipitoisesta rakenneteräsl…
Thermal Design of Refridgerated Hexapole 18 GHZ ECRIS HIISI
2014
A project is underway for constructing a new 18 GHz ECR ion source HIISI at University of Jyväskylä. An innovative plasma chamber structure with grooves at magnetic poles for larger chamber radius at poles. The hexapole will be refridgerated to sub-zero temperatures to boost the coercivity and the remanence of the permanent magnet material and to allow the use of high remanence, low intrinsic coersivity permanent magnet materials. The hexapole structure is insulated from high temperature solenoid coils and plasma chamber by vacuum. The thermal design of the structure has been made using a thermal diffusion code taking in account radiative, conductive and convective heat transfer processes. …
HIISI, New 18 GHZ ECRIS for the JYFL Accelerator Laboratory
2014
At the end of 2013 the Academy of Finland granted an infrastructure funding for the JYFL Accelerator Laboratory in order to increase beam intensities for the international user community. The primary objective is to construct a new high performance ECR ion source, HIISI (Heavy Ion Ion Source Injector), for the K130 cyclotron. Using room temperature magnets the HIISI has been designed to produce about the same magnetic field configuration as the superconducting ECRIS SUSI at NSCL/MSU for 18 GHz operation. An innovative structure will be used to maximize the radial confinement and demagnetization safety margin of the permanent magnets. The sextupole magnet is separated and insulated from the …
Status of new 18 GHz ECRIS HIISI
2018
A new 18 GHz ECR ion source HIISI is under commissioning at the Accelerator Laboratory at the University of Jyväskylä (JYFL). The main purpose of HIISI is to produce high-energy beam cocktails, e.g. Xe44+, for radiation effects testing of electronics with the K130 cyclotron. The initial commissioning results in 18+14 GHz operation with oxygen, argon and xenon are reported. The beam currents are compared to those produced by reference ion sources (JYFL 14 GHz ECRIS, GTS and SuSI). At the moment (October 2017) 560 µA of O6+ and 310 µA of Ar13+, for example, have been reached with HIISI at 2.3 kW total power. peerReviewed
Status of new 18 GHz ECRIS HIISI
2018
A new 18 GHz ECR ion source HIISI is under commissioning at the Accelerator Laboratory at the University of Jyvaskyla (JYFL). The main purpose of HIISI is to produce high-energy beam cocktails, e.g. Xe44+, for radiation effects testing of electronics with the K130 cyclotron. The initial commissioning results in 18+14 GHz operation with oxygen, argon and xenon are reported. The beam currents are compared to those produced by reference ion sources (JYFL 14 GHz ECRIS, GTS and SuSI). At the moment (October 2017) 560 µA of O6+ and 310 µA of Ar13+, for example, have been reached with HIISI at 2.3 kW total power.A new 18 GHz ECR ion source HIISI is under commissioning at the Accelerator Laboratory…